NL8002231A - IMAGE REPRODUCTION ELEMENT; METHOD FOR REPRODUCING AN IMAGE. - Google Patents

Description

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Title: Image reproduction element; method for reproducing an "image

The invention relates to an element for image reproduction using irradiation, which comprises at least one substrate and a photosensitive layer.

Such an element is known from Dutch patent application 5 79 · 6 ^ 05. The element described herein contains a first substrate, a photosensitive layer, an imaging layer and a second substrate. The photosensitive layer is transparent and consists of a material that is transparent. irradiation is polymerized or cross-linked and thereby acquires different cohesion and adhesion properties. The imaging layer contains pigment, eg TiOg, and is therefore opaque. When the element is used in the production of dry transfer materials, an adhesive layer is preferably still present between the image-forming layer and the second substrate.

This Dutch patent application 79,061 * 05 contrasts with US patent 3,353,955, which discloses an element consisting of a first and a second substrate with a very thin film of a photopolymerizable preparation in between. A drawback is pointed to the polymerization-disturbing influence of the pigment which is necessary in connection with obtaining a visible image.

Dutch patent application 79.061 * 05 obviates this drawback because the pigment is in the separate image-forming layer.

Apart from the drawbacks associated with the necessity of such a separate layer, an important drawback of the element according to this Dutch patent application 79,061 + 05 is that the reproduction methods are limited to the negative printing technique. Since an opaque imaging layer is present, a positive reflex printing technique is not an option.

The object of the invention is to provide an element which does not have these disadvantages.

This object is achieved according to the invention in that the photosensitive layer has a polymerization, crosslinkable or degradable (pre) polymer which can be polymerized, cross-linked or degradable with a certain wavelength, as well as one or more colorless and irradiated radiation certain wavelengths} .. includes reactive dyes.

Leucocyanin dyes are preferably used as dyes in the photosensitive layer.

The element according to the invention is preferably a laminate of a first and a second substrate with the photosensitive layer in between.

According to a preferred embodiment, the photosensitive layer contains a colorless combination of diazo component, most preferably diazo sulfonate, and coupling component, which combination can be activated by dyeing by heat and / or alkali-providing TQ agents.

The invention also relates to a method for reproducing an image using irradiation, which is characterized in that radiation of a certain wavelength is dropped by an original onto an element according to the invention.

According to a preferred method, radiation to which the dyes react in the photosensitive layer is dropped by an original on an element according to the invention, the original is then removed, and the radiation is then irradiated with the (pre) polymer present in the photosensitive layer. and for which the color developed by the former irradiation has a strong absorbing capacity, and the laminated product is delaminated.

··. v, ........ According to another preferred embodiment of the invention, an element according to the invention is irradiated with an original underneath it with infrared radiation such that through dark areas on the 2 original absorbed radiation is converted to heat, which activates the diazo component-coupling component combination to dye formation; if desired, after removal of the original, it is then irradiated with radiation of one or more wavelengths which leads to reaction of the (pre) polymer in the areas of the photosensitive layer where said dye formation has not taken place, to decomposition of the residual diazonium salts and until coloration by the colorless dyes in the as yet uncoloured areas of the photosensitive layer; and the laminated product is delaminated.

The invention therefore presents a one-stage photocopying system 35 with which a dry transfer of a transparent or opaque original (positive) and at the same time by delamination of the system automatically or with a non-transferable negative of the original having inactinic properties, which can be utilized in conventional darkroom applications, can be obtained. This system consists of one or more radiation sensitive layers laminated between two highly reflective substrates of different chemical and / or physical nature, which transmit the different types of energies with which these layers are activated sequentially or simultaneously. The transparent or opaque original to be copied is in direct contact with the second substrate and thereby applied to the photosensitive layer.

The photosensitive layer consists of a composition referred to as a photochromic photo (pre) polymer and consists of: 1. a polymerizable, crosslinkable or degradable {-pre) polymer which reacts with UV light of a specific wavelength, which before irradiation is clear.

2. One or more leucocyanide dyes, which are colorless before being irradiated, and which respond to radiation of a particular wavelength (n.). which may be identical to or different from the wavelength below 20, each reaction is a photoionization reaction.

3. a colorless diazo component-coupling component combination, which at .... _______ -. .room temperature is not active, but due to heat and / or alkali. delivery agents can be activated to form a color. This dye should have a high absorbency for radiation with the wavelength referred to under 1., i.e. radiation to which the (pre) polymer reacts. Furthermore, the unreacted heat-sensitive diazonium salts should preferably be decomposed by radiation of the wavelength referred to in 1..

First of all, infrared radiation of a suitable energy is transmitted through the first substrate. A certain amount of this radiation passes through the substrate, then the sensitive layers, and then reaches the original. Light image areas on the original reflect most of this radiation back to the photosensitive layers, while dark image areas absorb the radiation and convert it to heat.

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This heat is radiated back towards the photosensitive layers, where it initiates the dye-forming reaction between diazo component coupling component. This heat-developed dye has a strong color, which absorbs a large part of the ultraviolet energy to which the photo (pre) polymer reacts. Then, in one step or in several successive steps, it is irradiated with ultraviolet energy of one or more wavelengths rmti to destroy the residual sensitivity of the dye-forming composition by decomposing the diazonium salts. These irradiations can take place through the first substrate or after manual or automatic removal of the original, through the second substrate or simultaneously through both substrates. Simultaneously or by subsequent irradiation, the photo (pre) polymer is polymerized, cross-linked or degraded, thereby altering its physical bonding and cohesion properties. Thereby, it is detached from the first substrate for which it has the greatest attraction, and / or bonded to the second substrate, and / or its adhesion to the first substrate is reduced to allow subsequent transfer to another substrate . However, in the areas where a strong color has developed due to the diazocomponent coupling component reaction, most of the ultraviolet energy is absorbed by this dye, preventing a physicochemical change of the photo (pre) polymer .

Simultaneously or in a subsequent irradiation with UV energy of the same or different wavelength, one or more colorless leucocyanide dyes which are still colorless before the irradiation are brought to a photoionization reaction, whereby all areas of the laminate, except the areas are colored. whereby the diazo component coupling component system has developed a strong color.

The unpolymerized regions of the photo (pre) polymer typically still have the tack associated with the prepolymer as it exists prior to irradiation. The attractive force or adhesive strength of this prepolymer in the non-polymerized regions is further greater with respect to the first substrate than with respect to the second substrate. On the other hand, there is a greater attractive force or 800 2 2 31 - 5 - ^ ___ « ·· -i - adhesion to other carriers dant.ov the substrates between which it was laminated, when sufficient pressure is applied.

Finally, the first and second substrates are manually or automatically delaminated, for example by stripping, whereby on the one hand a visible positive copy of the original on the first substrate and, on the other hand, a negative image of the positive original with an inactinic coloring used in standard darkroom. The former visible positive copy can be dry-rubbed onto the backing of the first substrate on any other support with a higher adhesive strength than between the photopolymer / dye combination and the first substrate.

On the other hand, the invention provides a one-stage photocopy system with which a dry transferable positive of a transparent negative original can be obtained without the need for wet treatment.

In this case, the photosensitive layer does not contain the aforementioned diazocomponent coupling component combination and the method lacks infrared irradiation. The image in this case is formed by the leucocyanide dyes, the colors of which are successively and specifically developed by the frequency and amount of the ultraviolet energy passing through the bright areas of the transparent negative and falling on the laminated system.

In this case, this negative original is not behind but in front of ··· = - the element according to the invention, because this does not involve reflex pressure.

According to this method, a suitable ultraviolet energy of a certain wavelength is first passed through a negative original located between the UV source and the first substrate. The portion of this radiation that does not hit an opaque region of the negative passes through the first substrate and reaches the sensitive photochromic photo (pre) polymer. A leucocyanide dye complex sensitive to this UV frequency is photoionized and develops, a strong color that absorbs a large part of the UV energy with the wavelength, to which the photo (pre) polymer itself is sensitive. UV energy of the wavelength to which the photo (pre) polymer is sensitive is then irradiated on the laminate after removal of the negative, whereby the photo (pre) polymer is cross-linked and / or polymerized in all still 800 2 2 31 - y-v. -6- bright areas. Thereby, the polymer in these regions from the first substrate is transferred to the second substrate. Subsequent delamination of the laminated complex results in a positive, dry transferable image on the first substrate.

According to a variation of this method, it is also possible to irradiate with one UV light frequency through the negative, the photochromic photo- (pre) polymer reacting at this frequency by the above-mentioned polymerization and at the same time developing a strong color thanks to the available leucocyanide dyes, that respond to the same frequency.

Polymerization of the irradiated areas may allow the polymer to detach from the first substrate or allow dry transfer by mechanical means, for example, rubbing.

In this method, despite the lack of a separate adhesive layer, the ready-to-transfer material can have sufficient tackiness for dry transfer, because at the interface between the photo (pre) polymer and the air, the oxygen polymerization present is impeded. 1 800 2 2 31

Claims (5)

An image reproduction element using irradiation, comprising at least one substrate and a photosensitive layer, characterized in that the photosensitive layer comprises a clear, cross-linkable or degradable (pre) polymer polymerizable by radiation of a certain wavelength and one or more colorless and reactive dyes of radiation of certain wavelength (-n). 2. Element according to claim 1, characterized in that the dyestuffs are leucocyanide dyes. 3. Element according to claim 1 or 2, characterized in that it consists of a first and a second substrate with the photosensitive layer in between. U. Element according to one or more of claims 1 to 3, characterized in that a colorless combination of diazo component and coupling component is also present which can be activated to form a dye by heat and / or alkali-providing agents. Method for reproducing an image using irradiation, characterized in that radiation of a certain wavelength is dropped by an original onto an element according to one or more of claims 1 - 11. ... '20' 6. A method of reproducing an image using irradiation, characterized in that radiation to which the dyes in the photosensitive layers react is dropped by an original onto an element according to claim 3, the original is removed, irradiated with radiation - (pre) polymer 25 present in the photosensitive layers reacts and for which the color developed by the former irradiation has a strong absorbing capacity, and delaminates the laminated product. 7. A method of reproducing an image using irradiation, characterized in that an element according to claims 3 - 3 b with an original underneath is irradiated with infrared radiation such that radiation absorbed by dark areas on the original is converted into heat , which activates the diazo component coupling component 800 22 31 - 8 - t · · ν combination to dye formation; then, if desired after removal of the original, irradiates with radiation of one or more wavelengths leading to reaction of the '(ρίφ) polymer in the * regions of the photosensitive layer where said dye formation has not taken place, to decompose the remaining diazonium salts and until coloration by the colorless dyes in the as yet uncoloured areas of the photosensitive layer; and delaminates the laminated product. 800 2 2 31